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<div class="center">
<h1>The VDR Plugin System</h1>

<b>Version 1.7</b>
<p>
Copyright &copy; 2009 Klaus Schmidinger<br>
<a href="mailto:kls@tvdr.de">kls@tvdr.de</a><br>
<a href="http://www.tvdr.de">www.tvdr.de</a>
</div>
<div class="modified">
Important modifications introduced since version 1.6 are marked like this.
</div modified>
<p>
VDR provides an easy to use plugin interface that allows additional functionality
to be added to the program by implementing a dynamically loadable library file.
This interface allows programmers to develop additional functionality for VDR completely
separate from the core VDR source, without the need of patching the original
VDR code (and all the problems of correlating various patches).
<p>
This document is divided into two parts, the first one describing the
<a href="#Part I - The External Interface"><i>external</i> interface</a>
of the plugin system, and the second one describing the
<a href="#Part II - The Internal Interface"><i>internal</i> interface</a>.
The <i>external</i> interface handles everything necessary for a plugin to get hooked into the core
VDR program and present itself to the user.
The <i>internal</i> interface provides the plugin code access to VDR's internal data
structures and allows it to hook itself into specific areas to perform special actions.

<hr>
<h1>Table Of Contents</h1>
<ul>
<li><a href="#Part I - The External Interface">Part I - The External Interface</a>
<ul>
<li><a href="#Quick start">Quick start</a>
<li><a href="#The name of the plugin">The name of the plugin</a>
<li><a href="#The plugin directory structure">The plugin directory structure</a>
<li><a href="#Initializing a new plugin directory">Initializing a new plugin directory</a>
<li><a href="#The actual implementation">The actual implementation</a>
<li><a href="#Construction and Destruction">Construction and Destruction</a>
<li><a href="#Version number">Version number</a>
<li><a href="#Description">Description</a>
<li><a href="#Command line arguments">Command line arguments</a>
<li><a href="#Command line help">Command line help</a>
<li><a href="#Getting started">Getting started</a>
<li><a href="#Shutting down">Shutting down</a>
<li><a href="#Logging">Logging</a>
<li><a href="#Main menu entry">Main menu entry</a>
<li><a href="#User interaction">User interaction</a>
<li><a href="#Housekeeping">Housekeeping</a>
<li><a href="#Main thread hook">Main thread hook</a>
<li><a href="#Activity">Activity</a>
<li><a href="#Wakeup">Wakeup</a>
<li><a href="#Setup parameters">Setup parameters</a>
<li><a href="#The Setup menu">The Setup menu</a>
<li><a href="#Configuration files">Configuration files</a>
<li><a href="#Internationalization">Internationalization</a>
<li><a href="#Custom services">Custom services</a>
<li><a href="#SVDRP commands">SVDRP commands</a>
<li><a href="#Loading plugins into VDR">Loading plugins into VDR</a>
<li><a href="#Building the distribution package">Building the distribution package</a>
</ul>
<li><a href="#Part II - The Internal Interface">Part II - The Internal Interface</a>
<ul>
<li><a href="#Status monitor">Status monitor</a>
<li><a href="#Players">Players</a>
<li><a href="#Receivers">Receivers</a>
<li><a href="#Filters">Filters</a>
<li><a href="#The On Screen Display">The On Screen Display</a>
<li><a href="#Skins">Skins</a>
<li><a href="#Themes">Themes</a>
<li><a href="#Devices">Devices</a>
<li><a href="#Audio">Audio</a>
<li><a href="#Remote Control">Remote Control</a>
<li><a href="#Conditional Access">Conditional Access</a>
</ul>
</ul>

<hr><h1 class="center"><a name="Part I - The External Interface">Part I - The External Interface</a></h1>

<hr><h2><a name="Quick start">Quick start</a></h2>

<div class="blurb">Can't wait, can't wait!</div><p>

Actually you should read this entire document before starting to work with VDR plugins,
but you probably want to see something happening right away <tt>;-)</tt>
<p>
So, for a quick demonstration of the plugin system, there is a sample plugin called
"hello" that comes with the VDR source. To test drive this one, do the following:
<ul>
<li>change into the VDR source directory
<li><b><tt>make</tt></b> the VDR program with your usual <tt>REMOTE=...</tt> (and maybe other) options
<li>do <b><tt>make plugins</tt></b> to build the plugin
<li>run VDR with <b><tt>vdr -V</tt></b> to see the version information
<li>run VDR with <b><tt>vdr -h</tt></b> to see the command line options
<li>run VDR with <b><tt>vdr -Phello</tt></b>
<li>open VDR's main menu and select the <i>Hello</i> item
<li>open the <i>Setup</i> menu from VDR's main menu and select <i>Plugins</i>
</ul>
If you enjoyed this brief glimpse into VDR plugin handling, read through the rest of
this document and eventually write your own VDR plugin.

<hr><h2><a name="The name of the plugin">The name of the plugin</a></h2>

<div class="blurb">Give me some I.D.!</div><p>

One of the first things to consider when writing a VDR plugin is giving the thing
a proper name. This name will be used in the VDR command line in order to load
the plugin, and will also be the name of the plugin's source directory, as well
as part of the final library name.
<p>
The plugin's name should typically be as short as possible. Three letter
abbreviations like <b><tt>dvd</tt></b> (for a DVD player) or <b><tt>mp3</tt></b>
(for an MP3 player) would be good choices. It is also recommended that the name
consists of only lowercase letters and digits.
No other characters should be used here.
<p>
A plugin can access its name through the (non virtual) member function

<p><table><tr><td class="code"><pre>
const char *Name(void);
</pre></td></tr></table><p>

The actual name is derived from the plugin's library file name, as defined in the
next chapter.

<hr><h2><a name="The plugin directory structure">The plugin directory structure</a></h2>

<div class="blurb">Where is everybody?</div><p>

By default plugins are located in a directory named <tt>PLUGINS</tt> below the
VDR source directory. Inside this directory the following subdirectory structure
is used:

<p><table><tr><td class="code"><pre>
VDR/PLUGINS/src
VDR/PLUGINS/src/hello
VDR/PLUGINS/lib
VDR/PLUGINS/lib/libvdr-hello.so.1.1.0
</pre></td></tr></table><p>

The <tt>src</tt> directory contains one subdirectory for each plugin, which carries
the name of that plugin (in the above example that would be <tt>hello</tt>).
What's inside the individual source directory of a
plugin is entirely up to the author of that plugin. The only prerequisites are
that there is a <tt>Makefile</tt> that provides the targets <tt>all</tt> and
<tt>clean</tt>, and that a call to <tt>make all</tt> actually produces a dynamically
loadable library file for that plugin (we'll get to the details later).
<p>
The <tt>lib</tt> directory contains the dynamically loadable libraries of all
available plugins. Note that the names of these files are created by concatenating
<p>
<table border=2>
<tr><td align=center><b><tt>libvdr-</tt></b></td><td align=center><b><tt>hello</tt></b></td><td align=center><b><tt>.so.</tt></b></td><td align=center><b><tt>1.1.0</tt></b></td></tr>
<tr><td align=center><small>VDR plugin<br>library prefix</small></td><td align=center><small>name of<br>the plugin</small></td><td align=center><small>shared object<br>indicator</small></td><td align=center><small>API version number<br>this plugin was<br>compiled for</small></td></tr>
</table>
<p>
The <i>API version number</i> refers to the plugin API version number of the VDR
version this plugin was compiled with. Compiled plugins can run with newer versions
of VDR as long as their plugin API version number is still the same as that of
the current VDR version. That way minor fixes to VDR, that don't require changes
to the VDR header files, can be made without requiring all plugins to be
recompiled.
<p>
The plugin library files can be stored in any directory. If the default organization
is not used, the path to the plugin directory has be be given to VDR through the
<b><tt>-L</tt></b> option.
<p>
The VDR <tt>Makefile</tt> contains the target <tt>plugins</tt>, which calls
<tt>make all</tt> in every directory found under <tt>VDR/PLUGINS/src</tt>,
plus the target <tt>clean-plugins</tt>, which calls <tt>make clean</tt> in
each of these directories.
<p>
If you download a plugin <a href="#Building the distribution package">package</a>
from the web, it will typically have a name like
<p>
<tt>vdr-hello-0.0.1.tgz</tt>
<p>
and will unpack into a directory named
<p>
<tt>hello-0.0.1</tt>
<p>
To use the <tt>plugins</tt> and <tt>clean-plugins</tt> targets from the VDR <tt>Makefile</tt>
you need to unpack such an archive into the <tt>VDR/PLUGINS/src</tt> directory and
create a symbolic link with the basic plugin name, as in

<p><table><tr><td class="code"><pre>
ln -s hello-0.0.1 hello
</pre></td></tr></table><p>

Since the VDR <tt>Makefile</tt> only searches for directories with names consisting
of only lowercase characters and digits, it will only follow the symbolic links, which
should lead to the current version of the plugin you want to use. This way you can
have several different versions of a plugin source (like <tt>hello-0.0.1</tt> and
<tt>hello-0.0.2</tt>) and define which one to actually use through the symbolic link.
<p>
If a plugin needs library files of its own, it can copy them to the <tt>lib</tt>
directory following the naming convention <tt>lib<i>name</i>-<i>library</i>.so.0.0.1</tt>,
where <i>name</i> is the name of the plugin, and <i>library</i> identifies the
plugin's additional library. If the plugin <tt>hello</tt> would require the two
additional libraries <tt>foo</tt> and <tt>bar</tt>, the  names would be
<p>
<tt>libhello-foo.so.0.0.1</tt><br>
<tt>libhello-bar.so.0.0.1</tt>
<p>

<hr><h2><a name="Initializing a new plugin directory">Initializing a new plugin directory</a></h2>

<div class="blurb">A room with a view</div><p>

Call the Perl script <tt>newplugin</tt> from the VDR source directory to create
a new plugin directory with a <tt>Makefile</tt> and a main source file implementing
the basic derived plugin class.
You will also find a <tt>README</tt> file there with some initial text, where you
should fill in actual information about your project.
A <tt>HISTORY</tt> file is set up with an "Initial revision" entry. As your project
evolves, you should add the changes here with date and version number.
<p>
<tt>newplugin</tt> also creates a copy of the GPL license file <tt>COPYING</tt>,
assuming that you will release your work under that license. Change this if you
have other plans.
<p>
Add further files and maybe subdirectories to your plugin source directory as
necessary. Don't forget to adapt the <tt>Makefile</tt> appropriately.

<hr><h2><a name="The actual implementation">The actual implementation</a></h2>

<div class="blurb">Use the source, Luke!</div><p>

A newly initialized plugin doesn't really do very much yet.
If you <a href="#Loading plugins into VDR">load it into VDR</a> you will find a new
entry in the main menu, with the same name as your plugin (where the first character
has been converted to uppercase). There will also be a new entry named "Plugins" in
the "Setup" menu, which will bring up a list of all loaded plugins, through which you
can access each plugin's own setup parameters (if it provides any).
<p>
To implement actual functionality into your plugin you need to edit the source file
that was generated as <tt>PLUGINS/src/name.c</tt>. Read the comments in that file
to see where you can bring in your own code. The following sections of this document
will walk you through the individual member functions of the plugin class.
<p>
Depending on what your plugin shall do, you may or may not need all of the given
member functions. Except for the <tt>MainMenuEntry()</tt> function they all by default
return values that will result in no actual functionality. You can either completely
delete unused functions from your source file, or just leave them as they are.
If your plugin shall not be accessible through VDR's main menu, simply remove
(or comment out) the line implementing the <tt>MainMenuEntry()</tt> function.
<p>
At the end of the plugin's source file you will find a line that looks like this:

<p><table><tr><td class="code"><pre>
VDRPLUGINCREATOR(cPluginHello);
</pre></td></tr></table><p>

This is the "magic" hook that allows VDR to actually load the plugin into
its memory. You don't need to worry about the details behind all this.
<p>
If your plugin requires additional source files, simply add them to your plugin's
source directory and adjust the <tt>Makefile</tt> accordingly.
<p>
Header files usually contain preprocessor statements that prevent the same
file (or rather its contents, to be precise) from being included more than once, like

<p><table><tr><td class="code"><pre>
#ifndef __I18N_H
#define __I18N_H

...

#endif //__I18N_H
</pre></td></tr></table><p>

The example shown here is the way VDR does this in its core source files.
It takes the header file's name, converts it to all uppercase, replaces the
dot with an underline and precedes the whole thing with two underlines.
The GNU library header files do this pretty much the same way, except that they
usually precede the name with only one underline (there are exceptions, though).
<p>
As long as you make sure that none of your plugin's header files will be named
like one of VDR's header files, you can use the same method as VDR. However,
if you want to name a header file like one that is already existing in VDR's
source (<tt>i18n.h</tt> would be a possible candidate for this), you may want
to make sure that the macros used here don't clash. How you do this is completely
up to you. You could, for instance, prepend the macro with a <tt>'P'</tt>, as in
<tt>P__I18N_H</tt>, or leave out the trailing <tt>_H</tt>, as in <tt>__I18N</tt>,
or use a completely different way to make sure a header file is included only once.
<p>
The 'hello' example that comes with VDR makes use of <a href="#Internationalization">internationalization</a>
and implements a file named <tt>i18n.h</tt>. To make sure it won't clash with VDR's
<tt>i18n.h</tt> it uses the macro <tt>_I18N__H</tt> (one underline at the beginning
and two replacing the dot).

<hr><h2><a name="Construction and Destruction">Construction and Destruction</a></h2>

<div class="blurb">What goes up, must come down...</div><p>

The constructor and destructor of a plugin are defined as

<p><table><tr><td class="code"><pre>
cPlugin(void);
virtual ~cPlugin();
</pre></td></tr></table><p>

The <b>constructor</b> shall initialize any member variables the plugin defines, but
<b>must not access any global structures of VDR</b>.
It also must not create any threads or other large data structures. These things
are done in the
<a href="#Getting started"><tt>Initialize()</tt></a> or
<a href="#Getting started"><tt>Start()</tt></a>
function later.
Constructing a plugin object shall not have any side effects or produce any output,
since VDR, for instance, has to create the plugin objects in order to get their
command line help - and after that immediately destroys them again.
<p>
The <b>destructor</b> has to clean up any data created by the plugin.
Any threads the plugin may have created shall be stopped in the
<a href="#Shutting down"><tt>Stop()</tt></a> function.
<p>
Of course, if your plugin doesn't define any member variables that need to be
initialized (and deleted), you don't need to implement either of these functions.

<hr><h2><a name="Version number">Version number</a></h2>

<div class="blurb">Which incarnation is this?</div><p>

Every plugin must have a version number of its own, which does not necessarily
have to be in any way related to the VDR version number.
VDR requests a plugin's version number through a call to the function

<p><table><tr><td class="code"><pre>
virtual const char *Version(void) = 0;
</pre></td></tr></table><p>

Since this is a "pure" virtual function, any derived plugin class <b>must</b>
implement it. The returned string should identify this version of the plugin.
Typically this would be something like "0.0.1", but it may also contain other
information, like for instance "0.0.1pre2" or the like. The string should only
be as long as really necessary, and shall not contain the plugin's name itself.
Here's an example:

<p><table><tr><td class="code"><pre>
static const char *VERSION = "0.0.1";

const char *cPluginHello::Version(void)
{
  return VERSION;
}
</pre></td></tr></table><p>

Note that the definition of the version number is expected to be located in the
main source file, and must be written as
<pre>
static const char *VERSION = ...
</pre>
<p>
just like shown in the above example. This is a convention that allows the <tt>Makefile</tt>
to extract the version number when generating the file name for the distribution archive.
<p>
A new plugin project should start with version number <tt>0.0.1</tt> and should reach
version <tt>1.0.0</tt> once it is completely operative and well tested. Following the
Linux kernel version numbering scheme, versions with <i>even</i> release numbers
(like <tt>1.0.x</tt>, <tt>1.2.x</tt>, <tt>1.4.x</tt>...) should be stable releases,
while those with <i>odd</i> release numbers (like <tt>1.1.x</tt>, <tt>1.3.x</tt>,
<tt>1.5.x</tt>...) are usually considered "under development". The three parts of
a version number are not limited to single digits, so a version number of <tt>1.2.15</tt>
would be acceptable.

<hr><h2><a name="Description">Description</a></h2>

<div class="blurb">What is it that you do?</div><p>

In order to tell the user what exactly a plugin does, it must implement the function

<p><table><tr><td class="code"><pre>
virtual const char *Description(void) = 0;
</pre></td></tr></table><p>

which returns a short, one line description of the plugin's purpose:

<p><table><tr><td class="code"><pre>
static const char *DESCRIPTION = "A friendly greeting";

virtual const char *Description(void)
{
  return tr(DESCRIPTION);
}
</pre></td></tr></table><p>

Note the <tt>tr()</tt> around the <tt>DESCRIPTION</tt>, which allows the description
to be <a href="#Internationalization">internationalized</a>.

<hr><h2><a name="Command line arguments">Command line arguments</a></h2>

<div class="blurb">Taking orders</div><p>

A VDR plugin can have command line arguments just like any normal program.
If a plugin wants to react on command line arguments, it needs to implement
the function

<p><table><tr><td class="code"><pre>
virtual bool ProcessArgs(int argc, char *argv[]);
</pre></td></tr></table><p>

The parameters <tt>argc</tt> and <tt>argv</tt> have exactly the same meaning
as in a normal C program's <tt>main()</tt> function.
<tt>argv[0]</tt> contains the name of the plugin (as given in the <b><tt>-P</tt></b>
option of the <tt>vdr</tt> call).
<p>
Each plugin has its own set of command line options, which are totally independent
from those of any other plugin or VDR itself.
<p>
You can use the <tt>getopt()</tt> or <tt>getopt_long()</tt> function to process
these arguments. As with any normal C program, the strings pointed to by <tt>argv</tt>
will survive the entire lifetime of the plugin, so it is safe to store pointers to
these values inside the plugin. Here's an example:

<p><table><tr><td class="code"><pre>
bool cPluginHello::ProcessArgs(int argc, char *argv[])
{
  // Implement command line argument processing here if applicable.
  static struct option long_options[] = {
       { "aaa",      required_argument, NULL, 'a' },
       { "bbb",      no_argument,       NULL, 'b' },
       { NULL }
     };

  int c;
  while ((c = getopt_long(argc, argv, "a:b", long_options, NULL)) != -1) {
        switch (c) {
          case 'a': option_a = optarg;
                    break;
          case 'b': option_b = true;
                    break;
          default:  return false;
          }
        }
  return true;
}
</pre></td></tr></table><p>

The return value must be <i>true</i> if all options have been processed
correctly, or <i>false</i> in case of an error. The first plugin that returns
<i>false</i> from a call to its <tt>ProcessArgs()</tt> function will cause VDR
to exit.

<hr><h2><a name="Command line help">Command line help</a></h2>

<div class="blurb">Tell me about it...</div><p>

If a plugin accepts command line options, it should implement the function

<p><table><tr><td class="code"><pre>
virtual const char *CommandLineHelp(void);
</pre></td></tr></table><p>

which will be called if the user enters the <b><tt>-h</tt></b> option when starting VDR.
The returned string should contain the command line help for this plugin, formatted
in the same way as done by VDR itself:

<p><table><tr><td class="code"><pre>
const char *cPluginHello::CommandLineHelp(void)
{
  // Return a string that describes all known command line options.
  return "  -a ABC,   --aaa=ABC      do something nice with ABC\n"
         "  -b,       --bbb          activate 'plan B'\n";
}
</pre></td></tr></table><p>

This command line help will be printed directly below VDR's help texts (separated
by a line indicating the plugin's name, version and description), so if you use the
same formatting as shown here it will line up nicely.
Note that all lines should be terminated with a newline character, and should
be shorter than 80 characters.

<hr><h2><a name="Getting started">Getting started</a></h2>

<div class="blurb">Let's get ready to rumble!</div><p>

If a plugin implements a function that runs in the background (presumably in a
thread of its own), or wants to make use of <a href="#Internationalization">internationalization</a>,
it needs to implement one of the functions

<p><table><tr><td class="code"><pre>
virtual bool Initialize(void);
virtual bool Start(void);
</pre></td></tr></table><p>

which are called once for each plugin at program startup.
The difference between these two functions is that <tt>Initialize()</tt> is
called early at program startup, while <tt>Start()</tt> is called after the primary
device and user interface has been set up, but before the main program loop is entered.
Inside the <tt>Start()</tt> function of any plugin it is guaranteed that the <tt>Initialize()</tt>
functions of all plugins have  already been called. For many plugins it probably
doesn't matter which of these functions they implement, but it may be of importance
for, e.g., plugins that implement devices. Such plugins should create their cDevice
derived objects in <tt>Initialize()</tt>, so that other plugins can use them in their
<tt>Start()</tt> functions.
<p>
Inside this function the plugin must set up everything necessary to perform
its task. This may, for instance, be a thread that collects data from the DVB
stream, which is later presented to the user via a function that is available
from the main menu.
<p>
A return value of <i>false</i> indicates that something has gone wrong and the
plugin will not be able to perform its task. In that case, the plugin should
write a proper error message to the log file. The first plugin that returns
<i>false</i> from its <tt>Initialize()</tt> or <tt>Start()</tt> function will cause
VDR to exit.
<p>
If the plugin doesn't implement any background functionality or internationalized
texts, it doesn't need to implement either of these functions.

<hr><h2><a name="Shutting down">Shutting down</a></h2>

<div class="blurb">Stop it, right there!</div><p>

If a plugin performs any background tasks, it shall implement the function

<p><table><tr><td class="code"><pre>
virtual void Stop(void);
</pre></td></tr></table><p>

in which it shall stop them.
<p>
The <tt>Stop()</tt> function will only be called if a previous call to the
<a href="#Getting started"><tt>Start()</tt></a> function of that plugin has
returned <i>true</i>. The <tt>Stop()</tt> functions are called in the reverse order
as the <a href="#Getting started"><tt>Start()</tt></a> functions were called.

<hr><h2><a name="Logging">Logging</a></h2>

<p>
If the plugin should print log messages, you can use <tt>dsyslog()</tt>, <tt>isyslog()</tt> or <tt>esyslog()</tt>.<br>
<ul>
<li><tt>dsyslog()</tt> prints the log message only if the log level of vdr is set to 3.
<li><tt>isyslog()</tt> prints the log message only if the log level of vdr is set to 2 or above.
<li><tt>esyslog()</tt> prints the log message only if the log level of vdr is set to 1 or above.
</ul>
The output of this log is the syslog of the system vdr is running on.
The logmessage can be formatted like <tt>printf()</tt>, as in

<p><table><tr><td class="code"><pre>
esyslog("pluginname: error #%d has occurred", ErrorNumber);
</pre></td></tr></table><p>

Note that the log messages will be given as provided, the plugin's name will not
automatically be added, so make sure your log messages are obvious enough.

<hr><h2><a name="Main menu entry">Main menu entry</a></h2>

<div class="blurb">Today's special is...</div><p>

If the plugin implements a feature that the user shall be able to access
from VDR's main menu, it needs to implement the function

<p><table><tr><td class="code"><pre>
virtual const char *MainMenuEntry(void);
</pre></td></tr></table><p>

The default implementation returns a <tt>NULL</tt> pointer, which means that
this plugin will not have an item in the main menu. Here's an example of a
plugin that will have a main menu item:

<p><table><tr><td class="code"><pre>
static const char *MAINMENUENTRY = "Hello";

const char *cPluginHello::MainMenuEntry(void)
{
  return tr(MAINMENUENTRY);
}
</pre></td></tr></table><p>

The menu entries of all plugins will be inserted into VDR's main menu right
after the <i>Recordings</i> item, in the same sequence as they were given
in the call to VDR.

<hr><h2><a name="User interaction">User interaction</a></h2>

<div class="blurb">It's showtime!</div><p>

If the user selects the main menu entry of a plugin, VDR calls the function

<p><table><tr><td class="code"><pre>
virtual cOsdObject *MainMenuAction(void);
</pre></td></tr></table><p>

which can do one of three things:
<ul>
<li>Return a pointer to a <tt>cOsdMenu</tt> object which will be displayed
    as a submenu of the main menu (just like the <i>Recordings</i> menu, for instance).
    That menu can then implement further functionality and, for instance, could
    eventually start a custom player to replay a file other than a VDR recording.
<li>Return a pointer to a <tt>cOsdObject</tt> object which will be displayed
    instead of the normal menu. The derived <tt>cOsdObject</tt> can open a
    <a href="#The On Screen Display">raw OSD</a> from within its <tt>Show()</tt>
    function (it should not attempt to do so from within its constructor, since
    at that time the OSD is still in use by the main menu).
    See the 'osddemo' example that comes with VDR for a demonstration of how this
    is done.
<li>Perform a specific action and return <tt>NULL</tt>. In that case the main menu
    will be closed after calling <tt>MainMenuAction()</tt>.
</ul>
<b>
It is very important that a call to <tt>MainMenuAction()</tt> returns as soon
as possible! As long as the program stays inside this function, no other user
interaction is possible. If a specific action takes longer than a few seconds,
the plugin should launch a separate thread to do this.
</b>

<hr><h2><a name="Housekeeping">Housekeeping</a></h2>

<div class="blurb">Chores, chores...</div><p>

From time to time a plugin may want to do some regular tasks, like cleaning
up some files or other things. In order to do this it can implement the function

<p><table><tr><td class="code"><pre>
virtual void Housekeeping(void);
</pre></td></tr></table><p>

which gets called when VDR is otherwise idle. The intervals between subsequent
calls to this function are not defined. There may be several hours between two
calls (if, for instance, there are recordings or replays going on) or they may
be as close as ten seconds. The only thing that is guaranteed is that there are
at least ten seconds between two subsequent calls to the <tt>Housekeeping()</tt>
function of the same plugin.
<p>
<b>
It is very important that a call to <tt>Housekeeping()</tt> returns as soon
as possible! As long as the program stays inside this function, no other user
interaction is possible. If a specific action takes longer than a few seconds,
the plugin should launch a separate thread to do this.
</b>

<hr><h2><a name="Main thread hook">Main thread hook</a></h2>

<div class="blurb">Pushing in...</div><p>

Normally a plugin only reacts on user input if directly called through its
<a href="#Main menu entry">main menu entry</a>, or performs some background
activity in a separate thread. However, sometimes a plugin may need to do
something in the context of the main program thread, without being explicitly
called up by the user. In such a case it can implement the function

<p><table><tr><td class="code"><pre>
virtual void MainThreadHook(void);
</pre></td></tr></table><p>

in which it can do this. This function is called for every plugin once during
every cycle of VDR's main program loop, which typically happens once every
second.
<b>Be very careful when using this function, and make sure you return from it
as soon as possible! If you spend too much time in this function, the user
interface performance will become sluggish!</b>

<hr><h2><a name="Activity">Activity</a></h2>

<div class="blurb">Now is not a good time!</div><p>

If a plugin is running a background task that should be finished before shutting
down the system, it can implement the function

<p><table><tr><td class="code"><pre>
virtual cString Active(void);
</pre></td></tr></table><p>

which shall return an empty string if it is ok to shut down, and a proper message
if not:

<p><table><tr><td class="code"><pre>
cString cDoSomethingPlugin::Active(void)
{
  if (busy)
     return tr("Doing something");
  return NULL;
}
</pre></td></tr></table><p>

The message should be short and should indicate what is currently going on.
It will be presented to the user as a confirmation message, followed by a
hyphen and a "shut down anyway?" prompt, as in
<p>
<b>Doing something - shut down anyway?</b>
<p>
All plugins will be queried, and the first one that returns a non empty
string will cause the confirmation message to be shown. If the user confirms
the prompt by pressing the "Ok" button, the rest of the plugins will also
be queried, and further prompts may show up. If all prompts have been confirmed,
the shutdown will take place. As soon as one prompt is not confirmed, no
further plugins will be queried and no shutdown will be done.

<hr><h2><a name="Wakeup">Wakeup</a></h2>

<div class="blurb">Wake me up before you go-go</div><p>

If a plugin wants to schedule activity for a later time, or wants to perform
periodic activity at a certain time at night, and if VDR shall wake up from
shutdown at that time, the plugin can implement the function

<p><table><tr><td class="code"><pre>
virtual time_t WakeupTime(void);
</pre></td></tr></table><p>

which shall return the time of the next custom wakeup time, or 0 if no wakeup
is planned. VDR will pass the most recent wakeup time of all plugins, or the next
timer time, whichever comes first, to the shutdown script. The following sample
will wake up VDR every night at 1:00:

<p><table><tr><td class="code"><pre>
time_t MyPlugin::WakeupTime(void)
{
  time_t Now = time(NULL);
  time_t Time = cTimer::SetTime(Now, cTimer::TimeToInt(100));
  if (Time &lt;= Now)
     Time = cTimer::IncDay(Time, 1);
  return Time;
}
</pre></td></tr></table><p>

After wakeup, the plugin shall continue to return the wakeup time and shall
return a string when <tt>Active()</tt> is called at that time, otherwise VDR may shut down
again instantly. If <tt>WakeupTime()</tt> returns a time that is not in
the future, the time will be ignored.

<hr><h2><a name="Setup parameters">Setup parameters</a></h2>

<div class="blurb">Remember me...</div><p>

If a plugin requires its own setup parameters, it needs to implement the following
functions to handle these parameters:

<p><table><tr><td class="code"><pre>
virtual cMenuSetupPage *SetupMenu(void);
virtual bool SetupParse(const char *Name, const char *Value);
</pre></td></tr></table><p>

The <tt>SetupMenu()</tt> function shall return the plugin's <a href="#The Setup menu"><i>Setup</i> menu</a>
page, where the user can adjust all the parameters known to this plugin.
<p>
<tt>SetupParse()</tt> will be called for each parameter the plugin has
previously stored in the global setup data (see below). It shall return
<i>true</i> if the parameter was parsed correctly, <i>false</i> in case of
an error. If <i>false</i> is returned, an error message will be written to
the log file (and program execution will continue).
A possible implementation of <tt>SetupParse()</tt> could look like this:

<p><table><tr><td class="code"><pre>
bool cPluginHello::SetupParse(const char *Name, const char *Value)
{
  // Parse your own setup parameters and store their values.
  if      (!strcasecmp(Name, "GreetingTime"))         GreetingTime = atoi(Value);
  else if (!strcasecmp(Name, "UseAlternateGreeting")) UseAlternateGreeting = atoi(Value);
  else
     return false;
  return true;
</pre></td></tr></table><p>

It is important to make sure that the parameter names are exactly the same as
used in the <a href="#The Setup menu"><i>Setup</i> menu</a>'s <tt>Store()</tt> function.
<p>
The plugin's setup parameters are stored in the same file as VDR's parameters.
In order to allow each plugin (and VDR itself) to have its own set of parameters,
the <tt>Name</tt> of each parameter will be preceded with the plugin's
name, as in
<p>
<tt>hello.GreetingTime = 3</tt>
<p>
The prefix will be handled by the core VDR setup code, so the individual
plugins need not worry about this.
<p>
To store its values in the global setup, a plugin has to call the function

<p><table><tr><td class="code"><pre>
void SetupStore(const char *Name, <i>type</i> Value);
</pre></td></tr></table><p>

where <tt>Name</tt> is the name of the parameter (<tt>"GreetingTime"</tt> in the above
example, without the prefix <tt>"hello."</tt>) and <tt>Value</tt> is a simple data type (like
<tt>char&nbsp;*</tt>, <tt>int</tt> etc).
Note that this is not a function that the individual plugin class needs to implement!
<tt>SetupStore()</tt> is a non-virtual member function of the <tt>cPlugin</tt> class.
<p>
To remove a parameter from the setup data, call <tt>SetupStore()</tt> with the appropriate
name and without any value, as in
<p>
<tt>SetupStore("GreetingTime");</tt>
<p>
The VDR menu "Setup/Plugins" will list all loaded plugins with their name,
version number and description. Selecting an item in this list will bring up
the plugin's "Setup" menu if that plugin has implemented the <tt>SetupMenu()</tt>
function.
<p>
Finally, a plugin doesn't have to implement the <tt>SetupMenu()</tt> if it only
needs setup parameters that are not directly user adjustable. It can use
<tt>SetupStore()</tt> and <tt>SetupParse()</tt> without presenting these
parameters to the user.

<hr><h2><a name="The Setup menu">The Setup menu</a></h2>

<div class="blurb">Have it your way!</div><p>

To implement a <i>Setup</i> menu, a plugin needs to derive a class from
<tt>cMenuSetupPage</tt> and implement its constructor and the pure virtual
<tt>Store()</tt> member function:

<p><table><tr><td class="code"><pre>
int GreetingTime = 3;
int UseAlternateGreeting = false;

class cMenuSetupHello : public cMenuSetupPage {
private:
  int newGreetingTime;
  int newUseAlternateGreeting;
protected:
  virtual void Store(void);
public:
  cMenuSetupHello(void);
  };

cMenuSetupHello::cMenuSetupHello(void)
{
  newGreetingTime = GreetingTime;
  newUseAlternateGreeting = UseAlternateGreeting;
  Add(new cMenuEditIntItem( tr("Greeting time (s)"),      &amp;newGreetingTime));
  Add(new cMenuEditBoolItem(tr("Use alternate greeting"), &amp;newUseAlternateGreeting));
}

void cMenuSetupHello::Store(void)
{
  SetupStore("GreetingTime", GreetingTime = newGreetingTime);
  SetupStore("UseAlternateGreeting", UseAlternateGreeting = newUseAlternateGreeting);
}
</pre></td></tr></table><p>

In this example we have two global setup parameters (<tt>GreetingTime</tt> and <tt>UseAlternateGreeting</tt>).
The constructor initializes two private members with the values of these parameters, so
that the <i>Setup</i> menu can work with temporary copies (in order to discard any changes
if the user doesn't confirm them by pressing the "Ok" button).
After this the constructor adds the appropriate menu items, using internationalized texts
and the addresses of the temporary variables. That's all there is to initialize a <i>Setup</i>
menu - the rest will be done by the core VDR code.
<p>
Once the user has pressed the "Ok" button to confirm the changes, the <tt>Store()</tt> function will
be called, in which all setup parameters must be actually stored in VDR's global setup data.
This is done by calling the <tt>SetupStore()</tt> function for each of the parameters.
The <i>Name</i> string given here will be used to identify the parameter in VDR's
<tt>setup.conf</tt> file, and will be automatically prepended with the plugin's name.
<p>
Note that in this small example the new values of the parameters are copied into the
global variables within each <tt>SetupStore()</tt> call. This is not mandatory, however.
You can first assign the temporary values to the global variables and then do the
<tt>SetupStore()</tt> calls, or you can define a class or struct that contains all
your setup parameters and use that one to copy all parameters with one single statement
(like VDR does with its cSetup class).

<hr><h2><a name="Configuration files">Configuration files</a></h2>

<div class="blurb">I want my own stuff!</div><p>

There may be situations where a plugin requires configuration files of its own, maybe
for data that can't be stored in the simple <a href="#Setup parameters">setup parameters</a>
of VDR, or maybe because it needs to launch other programs that simply need a separate
configuration file. While the plugin is free to store such files anywhere it
sees fit, it might be a good idea to put them in a common place, preferably
where other configuration data already exists. VDR provides the function

<p><table><tr><td class="code"><pre>
const char *ConfigDirectory(const char *PluginName = NULL);
</pre></td></tr></table><p>

which returns a string containing the directory that VDR uses for its own configuration
files (defined through the <tt><b>-c</b></tt> option in the call to VDR), extended by
<tt>"/plugins"</tt>. So assuming the VDR configuration directory is <tt>/video</tt>
(the default if no <tt><b>-c</b></tt> or <tt><b>-v</b></tt> option is given),
a call to <tt>ConfigDirectory()</tt> will return <tt>/video/plugins</tt>. The first
call to <tt>ConfigDirectory()</tt> will automatically make sure that the <tt>plugins</tt>
subdirectory will exist. If, for some reason, this cannot be achieved, <tt>NULL</tt>
will be returned.
<p>
The additional <tt>plugins</tt> directory is used to keep files from plugins apart
from those of VDR itself, making sure there will be no name clashes. If a plugin
needs only one extra configuration file, it is suggested that this file be named
<tt>name.conf</tt>, where <i>name</i> shall be the name of the plugin.
<p>
If a plugin needs more than one such file, it is suggested that the plugin stores
these in a subdirectory of its own, named after the plugin. To easily get such a name
the <tt>ConfigDirectory()</tt> function can be given an additional string that will
be appended to the returned directory name, as in

<p><table><tr><td class="code"><pre>
const char *MyConfigDir = ConfigDirectory(Name());
</pre></td></tr></table><p>

where <tt>Name()</tt> is the member function of the plugin class that returns the
plugin's name. Again, VDR will make sure that the requested directory will exist
(or return <tt>NULL</tt> in case of an error).
<p>
<b>
The returned string is statically allocated and will be overwritten by subsequent
calls to ConfigDirectory()!
</b>
<p>
The <tt>ConfigDirectory()</tt> function is a static member function of the <tt>cPlugin</tt>
class. This allows it to be called even from outside any member function of the derived
plugin class, by writing

<p><table><tr><td class="code"><pre>
const char *MyConfigDir = cPlugin::ConfigDirectory();
</pre></td></tr></table><p>

<hr><h2><a name="Internationalization">Internationalization</a></h2>

<div class="blurb">Welcome to Babylon!</div><p>

If a plugin displays texts to the user, it should prepare for internationalization
of these texts. All that is necessary for this is to mark every text that is
presented to the user as translatable, as in

<p><table><tr><td class="code"><pre>
const char *s = tr("Hello world!");
</pre></td></tr></table><p>

The text given here must be the English version, and the returned pointer is either
a translated version (if available) or the original string.
Texts are searched for in the domain registered for this plugin.
If a plugin wants to make use of texts defined by the core VDR code, it can use
the special <tt>trVDR()</tt> macro to mark these texts without having them
appear in its own translation file.
<p>
Sometimes texts are stored in an array, in which case they need to be marked
differently, using the trNOOP() macro. The actual translation is then done
when such a text is used, as in

<p><table><tr><td class="code"><pre>
const char *Texts = {
  trNOOP("First text"),
  trNOOP("Second text"),
  trNOOP("Third one")
  };

for (int i = 0; i &lt; 3; i++)
    MyFunc(tr(Texts[i]));
</pre></td></tr></table><p>

<p>
The system VDR is running on may use a character encoding where a single character
(or <i>symbol</i>) consists of more than one byte (UTF-8, as opposed to, for instance,
ISO8859-1, where every character is represented by a single byte in memory).
In order to make sure a plugin works regardless of the character encoding the current
system uses, the VDR core code provides several functions and macros that allow accessing
text strings transparently without knowing whether this is a single or multi byte
character set. The names of these functions and macros are all of the form <tt>Utf8...()</tt>,
and are defined in <tt>VDR/tools.h</tt>.
Most of the time a plugin doesn't need to care about this, but when it comes to
handling individual characters these functions may come in handy.

<hr><h2><a name="Custom services">Custom services</a></h2>

<div class="blurb">What can I do for you?</div><p>

In some situations, two plugins may want to communicate directly, talking about things
that VDR doesn't handle itself. For example, a plugin may want to use features
that some other plugin offers, or it may want to inform other plugins about important
things it does. To receive requests or messages, a plugin can implement the
following function:

<p><table><tr><td class="code"><pre>
virtual bool Service(const char *Id, void *Data = NULL);
</pre></td></tr></table><p>

<tt>Id</tt> is a unique identification string that identifies the service protocol.
To avoid collisions, the string should contain a service name, the plugin name (unless
the service is not related to a single plugin) and a protocol version number.
<tt>Data</tt> points to a custom data structure. For each id string
there should be a specification that describes the format of the data
structure, and any change to the format should  be reflected by a change
of the id string.
<p>
The function shall return <i>true</i> for any service id string it handles, and <i>false</i>
otherwise. The plugins have to agree in which situations the service
may be called, for example whether the service may be called from every thread, or
just from the main thread. A possible implementation could look like this:

<p><table><tr><td class="code"><pre>
struct Hello_SetGreetingTime_v1_0 {
  int NewGreetingTime;
  };

bool cPluginHello::Service(const char *Id, void *Data)
{
  if (strcmp(Id, "Hello-SetGreetingTime-v1.0") == 0) {
     if (Data == NULL)
        return true;
     GreetingTime = ((Hello_SetGreetingTime_v1_0*)Data)-&gt;NewGreetingTime;
     return true;
     }
  return false;
}
</pre></td></tr></table><p>

Plugins should expect to be called with <tt>Data</tt> set to <tt>NULL</tt> and may use
this as a 'service supported' check without performing any actions.
<p>
To send messages to, or request services from a specific plugin, one plugin can directly
call another plugin's service function:

<p><table><tr><td class="code"><pre>
Hello_SetGreetingTime_v1_0 hellodata;
hellodata.NewGreetingTime = 3;
cPlugin *Plugin = cPluginManager::GetPlugin("hello");
if (Plugin)
   Plugin-&gt;Service("Hello-SetGreetingTime-v1.0", &gt;hellodata);
</pre></td></tr></table><p>

To send messages to, or request services from some plugin that offers the protocol, a
plugin can call the function <tt>cPluginManager::CallFirstService()</tt>. This function
will send the request to all plugins until one plugin handles it.
The function returns a pointer to the plugin that handled the request, or <tt>NULL</tt>
if no plugin handled it.
<p>
To send a message to all plugins, a plugin can call the function
<tt>cPluginManager::CallAllServices()</tt>. This function returns <tt>true</tt> if
any plugin handled the request, or <tt>false</tt> if no plugin handled the request.

<hr><h2><a name="SVDRP commands">SVDRP commands</a></h2>

<div class="blurb">Infinite Diversity in Infinite Combinations</div><p>

A plugin can implement its own SVDRP commands through the two functions

<p><table><tr><td class="code"><pre>
virtual const char **SVDRPHelpPages(void);
virtual cString SVDRPCommand(const char *Cmd, const char *Option, int &amp;ReplyCode);
</pre></td></tr></table><p>

The <tt>SVDRPHelpPages()</tt> function must return a pointer to a list of help
strings for all of the plugin's SVDRP commands, like this

<p><table><tr><td class="code"><pre>
const char **cPluginSvdrpdemo::SVDRPHelpPages(void)
{
  static const char *HelpPages[] = {
    "DATE\n"
    "    Print the current date.",
    "TIME [ raw ]\n"
    "    Print the current time.\n"
    "    If the optional keyword 'raw' is given, the result will be the\n"
    "    raw time_t data.",
    NULL
    };
  return HelpPages;
}
</pre></td></tr></table><p>

Note that the first line of each entry contains the actual command and its
parameters, while the following lines explain what the command does and what
the parameters (if any) mean. All lines of the explanation shall be indented
by exactly 4 blanks (no tabs), and none of them shall be longer than 79 characters
(to avoid messy output on 80 character wide terminals). The last entry in the
list must be NULL.
<p>
The command names <tt>HELP</tt> and <tt>MAIN</tt> are reserved and cannot
be used by a plugin.
<p>
The actual processing of SVDRP commands for a plugin is done in its
<tt>SVDRPCommand()</tt> function.
Here's an example of such a function, which implements the commands advertised in
the above help texts:

<p><table><tr><td class="code"><pre>
cString cPluginSvdrpdemo::SVDRPCommand(const char *Command, const char *Option, int &amp;ReplyCode)
{
  if (strcasecmp(Command, "DATE") == 0) {
     // we use the default reply code here
     return DateString(time(NULL));
     }
  else if (strcasecmp(Command, "TIME") == 0) {
     ReplyCode = 901;
     if (*Option) {
        if (strcasecmp(Option, "RAW") == 0)
           return cString::sprintf("%ld\nThis is the number of seconds since the epoch\n"
                                   "and a demo of a multi-line reply", time(NULL));
        else {
           ReplyCode = 504;
           return cString::sprintf("Unknown option: \"%s\"", Option);
           }
        }
     return TimeString(time(NULL));
     }
  return NULL;
}
</pre></td></tr></table><p>

The command is given to this function in the <tt>Command</tt> parameter, and any optional parameters
are given in the <tt>Option</tt> string. <tt>Command</tt> always points to an actual, non-empty string, while
<tt>Option</tt> may point to an empty string (it is never NULL, though).
<p>
If a plugin doesn't implement the given command, it shall return NULL, and VDR will
automatically issue a proper error message. If it encounters an unknown or invalid
option, it shall set the <tt>ReplyCode</tt> to one of the codes defined in <tt>VDR/svdrp.c</tt>
and return a proper error message.
<p>
The default <tt>ReplyCode</tt> is 900, and if the plugin doesn't care about reply
codes, it doesn't have to set it to anything else (unless there is an error, of
course). The codes in the range 901..999 are reserved for plugins that want
to use special reply codes. Any plugin can use any of these values and doesn't
have to coordinate this with any other plugin, since the caller knows which
plugin was called, and will therefore process the values according to the
particular plugin's definitions.
<p>
The returned string may consist of several lines, separated by the newline character
('<tt>\n</tt>'). Each of these lines will be preceded with the <tt>ReplyCode</tt>
when presenting them to the caller, and the continuation character ('<tt>-</tt>')
will be set for all but the last one.

<hr><h2><a name="Loading plugins into VDR">Loading plugins into VDR</a></h2>

<div class="blurb">Saddling up!</div><p>

Plugins are loaded into VDR using the command line option <b><tt>-P</tt></b>, as in

<p><table><tr><td class="code"><pre>
vdr -Phello
</pre></td></tr></table><p>

If the plugin accepts command line options, they are given as part of the argument
to the <b><tt>-P</tt></b> option, which then has to be enclosed in quotes:

<p><table><tr><td class="code"><pre>
vdr -P"hello -a abc -b"
</pre></td></tr></table><p>

Any number of plugins can be loaded this way, each with its own <b><tt>-P</tt></b> option:

<p><table><tr><td class="code"><pre>
vdr -P"hello -a abc -b" -Pdvd -Pmp3
</pre></td></tr></table><p>

If you are not starting VDR from the VDR source directory (and thus your plugins
cannot be found at their default location) you need to tell VDR the location of
the plugins through the <b><tt>-L</tt></b> option:

<p><table><tr><td class="code"><pre>
vdr -L/usr/lib/vdr -Phello
</pre></td></tr></table><p>

There can be any number of <b><tt>-L</tt></b> options, and each of them will apply to the
<b><tt>-P</tt></b> options following it.
<p>
When started with the <b><tt>-h</tt></b> or <b><tt>-V</tt></b> option (for <i>help</i>
or <i>version</i> information, respectively), VDR will automatically load all plugins
in the default or given directory that match the VDR plugin
<a href="#The plugin directory structure">naming convention</a>,
and display their help and/or version information in addition to its own output.

<hr><h2><a name="Building the distribution package">Building the distribution package</a></h2>

<div class="blurb">Let's get this show on the road!</div><p>

If you want to make your plugin available to other VDR users, you'll need to
make a package that can be easily distributed.
The <tt>Makefile</tt> that has been created by the call to
<a href="#Initializing a new plugin directory"><tt>newplugin</tt></a>
provides the target <tt>dist</tt>, which does this for you.
<p>
Simply change into your source directory and execute <tt>make dist</tt>:

<p><table><tr><td class="code"><pre>
cd VDR/PLUGINS/src/hello
make dist
</pre></td></tr></table><p>

After this you should find a file named like

<p><table><tr><td class="code"><pre>
vdr-hello-0.0.1.tgz
</pre></td></tr></table><p>

in your source directory, where <tt>hello</tt> will be replaced with your actual
plugin's name, and <tt>0.0.1</tt> will be your plugin's current version number.

<hr><h1 class="center"><a name="Part II - The Internal Interface">Part II - The Internal Interface</a></h1>

<hr><h2><a name="Status monitor">Status monitor</a></h2>

<div class="blurb">A piece of the action</div><p>

If a plugin wants to get informed on various events in VDR, it can derive a class from
<tt>cStatus</tt>, as in

<p><table><tr><td class="code"><pre>
#include &lt;vdr/status.h&gt;

class cMyStatusMonitor : public cStatus {
protected:
  virtual void ChannelSwitch(const cDevice *Device, int ChannelNumber);
  };

void cMyStatusMonitor::ChannelSwitch(const cDevice *Device, int ChannelNumber)
{
  if (ChannelNumber)
     dsyslog("channel switched to %d on DVB %d", ChannelNumber, Device-&gt;CardIndex());
  else
     dsyslog("about to switch channel on DVB %d", Device-&gt;CardIndex());
}
</pre></td></tr></table><p>

An object of this class will be informed whenever the channel is switched on one of
the DVB devices. It could be used in a plugin like this:

<p><table><tr><td class="code"><pre>
#include &lt;vdr/plugin.h&gt;

class cPluginStatus : public cPlugin {
private:
  cMyStatusMonitor *statusMonitor;
public:
  cPluginStatus(void);
  virtual ~cPluginStatus();
  ...
  virtual bool Start(void);
  ...
  };

cPluginStatus::cPluginStatus(void)
{
  statusMonitor = NULL;
}

cPluginStatus::~cPluginStatus()
{
  delete statusMonitor;
}

bool cPluginStatus::Start(void)
{
  statusMonitor = new cMyStatusMonitor;
  return true;
}
</pre></td></tr></table><p>

Note that the actual object is created in the <tt>Start()</tt> function, not in the
constructor! It is also important to delete the object in the destructor, in order to
avoid memory leaks.
<p>
A Plugin can implement any number of <tt>cStatus</tt> derived objects, and once
the plugin has been started it may create and delete them as necessary.
No further action apart from creating an object derived from <tt>cStatus</tt>
is necessary. VDR will automatically hook it into a list of status monitors, with
their individual virtual member functions being called in the same sequence as the
objects were created.
<p>
See the file <tt>status.h</tt> for detailed information on which status monitor
member functions are available in <tt>cStatus</tt>. You only need to implement
the functions you actually want to use.

<hr><h2><a name="Players">Players</a></h2>

<div class="blurb">Play it again, Sam!</div><p>

Implementing a player is a two step process.
First you need the actual player class, which is derived from the abstract <tt>cPlayer</tt>:

<p><table><tr><td class="code"><pre>
#include &lt;vdr/player.h&gt;

class cMyPlayer : public cPlayer {
protected:
  virtual void Activate(bool On);
public:
  cMyPlayer(void);
  virtual ~cMyPlayer();
  };
</pre></td></tr></table><p>

What exactly you do in this class is entirely up to you. If you want to run a separate
thread which, e.g.,  reads data from a file, you can additionally derive your class from
<tt>cThread</tt> and implement the necessary functionality:

<p><table><tr><td class="code"><pre>
#include &lt;vdr/player.h&gt;

class cMyPlayer : public cPlayer, cThread {
protected:
  virtual void Activate(bool On);
  virtual void Action(void);
public:
  cMyPlayer(void);
  virtual ~cMyPlayer();
  };
</pre></td></tr></table><p>

Take a look at the files <tt>player.h</tt> and <tt>dvbplayer.c</tt> to see how VDR implements
its own player for the VDR recordings.
<p>
To play the actual data, the player needs to call its member function

<p><table><tr><td class="code"><pre>
int PlayPes(const uchar *Data, int Length, bool VideoOnly);
</pre></td></tr></table><p>

where <tt>Data</tt> points to a block of <tt>Length</tt> bytes of a PES data
stream containing any combination of video, audio or Dolby tracks. Which audio
or Dolby track will actually be played is controlled by the device the player
is attached to. There are no prerequisites regarding the length or alignment of an
individual block of data. The sum of all blocks must simply result in the
desired data stream, and it must be delivered fast enough so that the
DVB device doesn't run out of data.
To avoid busy loops the player should call its member function

<p><table><tr><td class="code"><pre>
bool DevicePoll(cPoller &amp;Poller, int TimeoutMs = 0);
</pre></td></tr></table><p>

to determine whether the device is ready for further data.
<p>
By default all audio track handling is done by the device a player is
attached to.
If the player can provide more than a single audio track, and has special
requirements in order to set a given track, it can implement the
following function to allow the device to set a specific track:

<p><table><tr><td class="code"><pre>
virtual void SetAudioTrack(eTrackType Type, const tTrackId *TrackId)
</pre></td></tr></table><p>

A player that has special requirements about audio tracks should announce its
available audio tracks by calling

<p><table><tr><td class="code"><pre>
bool DeviceSetAvailableTrack(eTrackType Type, int Index, uint16_t Id, const char *Language = NULL, const char *Description = NULL)
</pre></td></tr></table><p>

See <tt>device.h</tt> for details about the parameters for track handling.
<p>
The second part needed here is a control object that receives user input from the main
program loop and reacts on this by telling the player what to do:

<p><table><tr><td class="code"><pre>
#include &lt;vdr/player.h&gt;

class cMyControl : public cControl {
private:
  cMyPlayer *player;
public:
  cMyControl(void);
  virtual ~cMyControl();
  virtual void Hide(void);
  virtual cOsdObject *GetInfo(void);
  virtual eOSState ProcessKey(eKeys Key);
  };
</pre></td></tr></table><p>

<tt>cMyControl</tt> shall create an object of type <tt>cMyPlayer</tt> and
hand over a pointer to it to the <tt>cControl</tt> base class, so that it
can be later attached to the primary DVB device:

<p><table><tr><td class="code"><pre>
cMyControl::cMyControl(void)
:cControl(player = new cMyPlayer)
{
}
</pre></td></tr></table><p>

<tt>cMyControl</tt> will receive the user's key presses through the <tt>ProcessKey()</tt>
function. It will get all button presses, except for the volume control buttons
(<tt>kVolUp</tt>, <tt>kVolDn</tt>, <tt>kMute</tt>), the power button (<tt>kPower</tt>)
and the menu button (<tt>kMenu</tt>). If the user has not pressed a button for a while
(which is typically in the area of about one second), <tt>ProcessKey()</tt> will be called
with <tt>kNone</tt>, so that the <tt>cMyControl</tt> gets a chance to check whether its
player is still active. Once the player has become inactive (because the user has decided
to stop it or the DVB device has detached it), <tt>ProcessKey()</tt> must return <tt>osEnd</tt>
to make the main program loop shut down the player control.
<p>
A derived <tt>cControl</tt> <b>must</b> implement the <tt>Hide()</tt> function, in which
it has to hide itself from the OSD, in case it uses it. <tt>Hide()</tt> may be called at
any time, and it may be called even if the <tt>cControl</tt> is not visible at the moment.
<p>
The <tt>GetInfo()</tt> function is called when the user presses the <tt>Info</tt> button,
and shall return a pointer to a <tt>cOsdObject</tt> that contains information
about the currently played programme. The caller takes ownership of the returned
pointer and will delete it when it is no longer used. If no information is available,
<tt>NULL</tt> shall be returned.
<p>
Finally, to get things going, a plugin that implements a player (and the surrounding
infrastructure like displaying a list of playable stuff etc) simply has to call the
static function <tt>cControl::Launch()</tt> with the player control object, as in

<p><table><tr><td class="code"><pre>
cControl::Launch(new cMyControl);
</pre></td></tr></table><p>

Ownership of the <tt>MyControl</tt> object is handed over to the VDR core code,
so the plugin should not keep a pointer to it, because VDR will destroy the object
whenever it sees fit (for instance because a recording shall start that needs to
use the primary DVB device, or the user decides to start a different replay).
<p>
The <tt>cPlayer</tt> class has a member function

<p><table><tr><td class="code"><pre>
void DeviceStillPicture(const uchar *Data, int Length);
</pre></td></tr></table><p>

which can be called to display a still picture. VDR uses this function when handling
its editing marks. A special case of a "player" might use this function to implement
a "picture viewer".
<p>
For detailed information on how to implement your own player, please take a look
at VDR's <tt>cDvbPlayer</tt> and <tt>cDvbPlayerControl</tt> classes.
<p>
<b>User interface</b>
<p>
In order for a new player to nicely "blend in" to the overall VDR appearance it
is recommended that it implements the same functionality with the same keys as the
VDR player does (as far as this is possible and makes sense). The main points to
consider here are
<ul>
<li>The <i>Ok</i> button shall bring up some display that indicates what is currently
    being played, and what the status of this replay session is. As an alternative (for
    instance with a DVD player) it may display a player specific menu, from which the
    user can select certain options.
<li>The <i>Up</i>, <i>Down</i>, <i>Left</i> and <i>Right</i> buttons shall control
    <i>Play</i>, <i>Pause</i>, <i>Fast Rewind</i> and <i>Fast Forward</i>, respectively
    (provided that this particular player can implement these functions) if the player
    is not currently showing any menu. If there is a menu, they shall allow the user
    to navigate in the menu. The dedicated <i>Play</i>, <i>Pause</i>, <i>FastRew</i>
    and <i>FastFwd</i> keys shall always result in their specific functionality.
<li>The <i>Green</i> and <i>Yellow</i> buttons shall skip back- and forward by an
    amount of time suitable for this player (provided that this particular player can
    implement these functions).
<li>The <i>Blue</i> and <i>Stop</i> button shall immediately stop the replay session.
</ul>
Of course, these are only suggestions which should make it easier for VDR users to
enjoy additional players, since they will be able to control them with actions
that they already know. If you absolutely want to do things differently, just go
ahead - it's your show...

<hr><h2><a name="Receivers">Receivers</a></h2>

<div class="blurb">Tapping into the stream...</div><p>

In order to receive any kind of data from a <tt>cDevice</tt>, a plugin must set up an
object derived from the <tt>cReceiver</tt> class:

<p><table><tr><td class="code"><pre>
#include &lt;vdr/receiver.h&gt;

class cMyReceiver : public cReceiver, cThread {
protected:
  virtual void Activate(bool On);
  virtual void Receive(uchar *Data, int Length);
public:
  cMyReceiver(int Pid);
  };

cMyReceiver::cMyReceiver(int Pid)
:cReceiver(tChannelID(), -1, Pid)
{
}

cMyReceiver::~cMyReceiver()
{
  cReceiver::Detach();
  ...
}

void cMyReceiver::Activate(bool On)
{
  // start your own thread for processing the received data
}

void cMyReceiver::Receive(uchar *Data, int Length)
{
  // buffer the data for processing in a separate thread
}
</pre></td></tr></table><p>

See the comments in <tt>VDR/receiver.h</tt> for details about the various
member functions of <tt>cReceiver</tt>.
<p>
The above example sets up a receiver that wants to receive data from only one
PID (for example the Teletext PID). In order to not interfere with other recording
operations, it sets its priority to <tt>-1</tt> (any negative value will allow
a <tt>cReceiver</tt> to be detached from its <tt>cDevice</tt> at any time.
<p>
Once a <tt>cReceiver</tt> has been created, it needs to be <i>attached</i> to
a <tt>cDevice</tt>:

<p><table><tr><td class="code"><pre>
cMyReceiver *Receiver = new cMyReceiver(123);

cDevice::ActualDevice()-&gt;AttachReceiver(Receiver);
</pre></td></tr></table><p>

Note the use of <tt>cDevice::ActualDevice()</tt> here, which makes sure that
the receiver is attached to the device that actually receives the current live
video stream (this may be different from the primary device in case of <i>Transfer
Mode</i>).
<p>
<div class="modified">
The <tt>cReceiver</tt> must be detached from its device before it is deleted.
</div modified>

<hr><h2><a name="Filters">Filters</a></h2>

<div class="blurb">A Fistful of Data</div><p>

If you want to receive section data you have to implement a derived <tt>cFilter</tt>
class which at least implements the <tt>Process()</tt> function and a constructor
that sets the (initial) filter parameters:

<p><table><tr><td class="code"><pre>
#include &lt;vdr/filter.h&gt;

class cMyFilter : public cFilter {
protected:
  virtual void Process(u_short Pid, u_char Tid, const u_char *Data, int Length);
public:
  cMyFilter(void);
  ...
  };

cMyFilter::cMyFilter(void)
{
  Set(0x14, 0x70);        // TDT
}

void cMyFilter::Process(u_short Pid, u_char Tid, const u_char *Data, int Length)
{
  // do something with the data here
}
</pre></td></tr></table><p>

An instance of such a filter needs to be attached to the device from
which it shall receive data, as in

<p><table><tr><td class="code"><pre>
cMyFilter *Filter = new cMyFilter();

cDevice::ActualDevice()-&gt;AttachFilter(Filter);
</pre></td></tr></table><p>

If the <tt>cFilter</tt> isn't needed any more, it may simply be <i>deleted</i>
and will automatically detach itself from the <tt>cDevice</tt>.
<p>
See VDR/eit.c or VDR/pat.c to learn how to process filter data.

<hr><h2><a name="The On Screen Display">The On Screen Display</a></h2>

<div class="blurb">Window to the world</div><p>

If a plugin needs to have total control over the OSD, it can call the
static function

<p><table><tr><td class="code"><pre>
#include &lt;vdr/osd.h&gt;

cOsd *MyOsd = cOsdProvider::NewOsd(x, y);
</pre></td></tr></table><p>

where <tt>x</tt> and <tt>y</tt> are the coordinates of the upper left corner
of the OSD area on the screen. Such an OSD doesn't display anything
yet, so you need to at least call the function

<p><table><tr><td class="code"><pre>
tArea Area = { 0, 0, 100, 100, 4 };
MyOsd-&gt;SetAreas(&amp;Area, 1);
</pre></td></tr></table><p>

to define an actual OSD drawing area (see VDR/osd.h for the declarations
of these functions, and VDR/skinsttng.c to see how VDR opens the OSD and sets up
its windows and color depths).
<p>
Theoretically the OSD supports a full screen drawing area, with 32 bit color
depth. However, the actual OSD device in use may not be able to provide the
full area or color depth, maybe because of lack of OSD memory or other restrictions.
A plugin that uses the OSD should therefore test whether the OSD is able to
provide the requested functionality, and should offer alternate color depths
to allow a less powerful OSD implementation to still work reasonably.
Since it is often not really necessary to have hundreds or thousands of colors
all over the OSD area, a plugin can divide the total drawing area into several
sub-areas with different color depths and separate color palettes, as in

<p><table><tr><td class="code"><pre>
tArea Area = { 0, 0, 99, 99, 4 };
if (osd-&gt;CanHandleAreas(Area, 1) == oeOk)
   osd-&gt;SetAreas(&amp;Area, 1);
else {
   tArea Areas[] = { { 0,  0, 99, 19, 2 },
                     { 0, 20, 99, 79, 2 },
                     { 0, 80, 99, 99, 4 }
                   };
   osd-&gt;SetAreas(Areas, sizeof(Areas) / sizeof(tArea));
   }
</pre></td></tr></table><p>

In this example an OSD with 100 by 100 pixel and 4 bit color depth shall
be opened, so at first a single area with the full required resolution
is set up and <tt>CanHandleAreas()</tt> is called with it. If the result indicates
that the OSD will be able to handle this drawing area, a call to <tt>SetAreas()</tt>
actually sets it. If a single area with that resolution can't be handled,
a second attempt is made in which the total drawing area is divided into
three horizontal stripes, two of which use only 2 bit color depth (because
the objects drawn in there can be displayed with 4 colors) while the third
one still requests 4 bit color depth.
<p>
Note that a plugin should always at first request a single drawing area
with the full required resolution. Only if this fails shall it use alternate
areas. Drawing areas are always rectangular and may not overlap (but do not need
to be adjacent).
<p>
Special consideration may have to be given to color usage if the OSD provides
8bpp (256 colors). In that case, fonts may be drawn using <i>anti-aliasing</i>,
which requires several blended color values between the foreground and background
color. In order to not use up the whole color palette for a single color
combination (and thus be unable to draw any other colors at all), it may be
useful to call

<p><table><tr><td class="code"><pre>
osd-&gt;SetAntiAliasGranularity();
</pre></td></tr></table><p>

which allows the system to evenly distribute the palette entries to the various
color combinations (see <tt>VDR/osd.h</tt> for details).
<p>
Directly accessing the OSD is only allowed from the foreground thread, which
restricts this to a <tt>cOsdObject</tt> returned from the plugin's <tt>MainMenuAction()</tt>
function, or any of the skin classes a plugin might implement.
<p>
If a plugin runs a separate thread and wants to issue a message directly from
within that tread, it can call

<p><table><tr><td class="code"><pre>
int cSkins::QueueMessage(eMessageType Type, const char *s, int Seconds = 0, int Timeout = 0);
</pre></td></tr></table><p>

to queue that message for display. See <tt>VDR/skins.h</tt> for details.

<hr><h2><a name="Skins">Skins</a></h2>

<div class="blurb">The emperor's new clothes</div><p>

The way VDR displays its menus to the user is implemented through <i>skins</i>.
A particular skin provides several functions that return objects to be used
for displaying a specific part of the OSD, like a menu, the channel display
or the volume bar.
<p>
By default VDR offers the <i>Classic</i> and the <i>ST:TNG Panels</i> skins,
which can be selected through Setup/OSD/Skin. A plugin can implement an
arbitrary skin of its own by doing something similar to what's done in
<tt>VDR/skinclassic.c</tt>.
<p>
The first step in implementing a new skin is to derive a class from <tt>cSkin</tt>
that provides the handling objects necessary to do the actual work:

<p><table><tr><td class="code"><pre>
#include "skins.h"

class cMySkin : public cSkin {
public:
  cMySkin(void);
  virtual const char *Description(void);
  virtual cSkinDisplayChannel *DisplayChannel(bool WithInfo);
  virtual cSkinDisplayMenu *DisplayMenu(void);
  virtual cSkinDisplayReplay *DisplayReplay(bool ModeOnly);
  virtual cSkinDisplayVolume *DisplayVolume(void);
  virtual cSkinDisplayMessage *DisplayTrack(int NumTracks, const char * const *Tracks);
  virtual cSkinDisplayMessage *DisplayMessage(void);
  };
</pre></td></tr></table><p>

See the comments in <tt>VDR/skins.h</tt> for details. <tt>VDR/skinclassic.[hc]</tt>
can be used as an example for how to implement all the necessary classes and
functions to compose a complete skin. See also the chapter about <a href="#Themes">themes</a>
if you want to make the colors used by your skin configurable.
<p>
To add your new skin to the list of skins available to the user in Setup/OSD/Skin,
all you need to do is create a new object of your skin class, as in

<p><table><tr><td class="code"><pre>
new cMySkin;
</pre></td></tr></table><p>

in the <a href="#Getting started"><tt>Start()</tt></a> function of your plugin.
Do not delete this object, it will be automatically deleted when the program ends.
<p>
In order to be able to easily identify plugins that implement a skin it is recommended
that the name of such a plugin should be

<p><table><tr><td class="code"><pre>
skinxyz
</pre></td></tr></table><p>

where <tt>xyz</tt> is the actual name of the skin.

<hr><h2><a name="Themes">Themes</a></h2>

<div class="blurb">Eye of the beholder...</div><p>

A <i>theme</i> is a collection of colors that can be used by a <a href="#Skins">skin</a>.
Since every skin most likely has its own idea about what parts of it can be
<i>themed</i>, and different skins may have completely different numbers of
"themeable" parts, a particular theme can only be used with the skin it was designed
for. A particular skin, however, can have any number of themes. Which theme
will be actually used can be defined in Setup/OSD/Theme.
<p>
In order to make a skin "themeable" is shall create an object of type cTheme, as in

<p><table><tr><td class="code"><pre>
static cTheme Theme;
</pre></td></tr></table><p>

The next step is to define the colors that shall be provided by this theme, as in

<p><table><tr><td class="code"><pre>
THEME_CLR(Theme, clrTitle,        0xFFBC8024);
THEME_CLR(Theme, clrButtonRedFg,  clrWhite);
THEME_CLR(Theme, clrButtonRedBg,  clrRed);
</pre></td></tr></table><p>

<tt>THEME_CLR()</tt> is a helper macro that adds the given color name
and its default color value to the theme.
<p>
Any color names can be used, but they should always start with <tt>clr...</tt> and
if a given color has a foreground and a background value, the two names shall be
distinguished by appending <tt>...Fg</tt> and <tt>...Bg</tt>, respectively.
<p>
Color values can be either 32 bit hexadecimal numbers in the form 0xAARRGGBB
(where the individual bytes represent Alpha (transparency), Red, Green
and Blue component, respectively), or one of the predefined color names from
<tt>VDR/osd.h</tt>.
<p>
In the actual drawing code of a skin, the color names defined with the <tt>THEME_CLR()</tt>
macros can be used to fetch the actual color values from the theme, as in

<p><table><tr><td class="code"><pre>
osd-&gt;DrawText(x, y, s, Theme.Color(clrButtonRedFg), Theme.Color(clrButtonRedBg), font);
</pre></td></tr></table><p>

By default this will use the colors that have been defined in the respective
<tt>THEME_CLR()</tt> line, but may be overwritten through user supplied theme
files (see <tt>man vdr(5)</tt> for information about the format of a theme file).

<hr><h2><a name="Devices">Devices</a></h2>

<div class="blurb">Expanding the possibilities</div><p>

By default VDR is based on using DVB PCI cards that are supported by the
LinuxDVB driver. However, a plugin can implement additional devices that
can be used as sources of MPEG data for viewing or recording, and also
as output devices for replaying. Such a device can be a physical card
that is installed in the PC (like, for instance, an MPEG encoder card that
allows the analog signal of a proprietary set-top box to be integrated
into a VDR system; or an analog TV receiver card, which does the MPEG encoding
"on the fly" - assuming your machine is fast enough), or just a software program that takes an MPEG data
stream and displays it, for instance, on an existing graphics adapter.
<p>
To implement an additional device, a plugin must derive a class from <tt>cDevice</tt>:

<p><table><tr><td class="code"><pre>
#include &lt;vdr/device.h&gt;

class cMyDevice : public cDevice {
  ...
  };
</pre></td></tr></table><p>

The derived class must implement several virtual functions, according to
the abilities this new class of devices can provide. See the comments in the
file <tt>VDR/device.h</tt> for more information on the various functions,
and also <tt>VDR/dvbdevice.[hc]</tt> for details on the implementation of
the <tt>cDvbDevice</tt>, which is used to access the DVB PCI cards.
<p>
<b>Channel selection</b>
<p>
If the new device can receive, it most likely needs to provide a way of
selecting which channel it shall tune to:

<p><table><tr><td class="code"><pre>
<div class="modified">
virtual int NumProvidedSystems(void) const;
</div modified>
virtual bool ProvidesSource(int Source) const;
virtual bool ProvidesTransponder(const cChannel *Channel) const;
virtual bool ProvidesChannel(const cChannel *Channel, int Priority = -1, bool *NeedsDetachReceivers = NULL) const;
virtual bool SetChannelDevice(const cChannel *Channel, bool LiveView);
</pre></td></tr></table><p>

These functions will be called with the desired source or channel and shall return whether
this device can provide the requested source or channel and whether tuning to it was successful,
respectively.
<p>
<b>Audio selection</b>
<p>
If the device can provide more than a single audio track, it can implement the
following function to make them available:

<p><table><tr><td class="code"><pre>
virtual void SetAudioTrackDevice(eTrackType Type);
virtual int GetAudioChannelDevice(void);
virtual void SetAudioChannelDevice(int AudioChannel);
</pre></td></tr></table><p>

<p>
<b>Recording</b>
<p>
A device that can be used for recording must implement the functions

<p><table><tr><td class="code"><pre>
virtual bool SetPid(cPidHandle *Handle, int Type, bool On);
virtual bool OpenDvr(void);
virtual void CloseDvr(void);
virtual bool GetTSPacket(uchar *&amp;Data);
</pre></td></tr></table><p>

which allow VDR to set the PIDs that shall be recorded, set up the device for
recording (and shut it down again), and receive the MPEG data stream. The data
must be delivered in the form of a Transport Stream (TS), which consists of
packets that are all 188 bytes in size. Each call to <tt>GetTSPacket()</tt>
must deliver exactly one such packet (if one is currently available).
<p>
<b>Replaying</b>
<p>
The functions to implement replaying capabilities are

<p><table><tr><td class="code"><pre>
virtual bool HasDecoder(void) const;
virtual bool CanReplay(void) const;
virtual bool SetPlayMode(ePlayMode PlayMode);
virtual int64_t GetSTC(void);
<div class="modified">
virtual bool IsPlayingVideo(void) const;
</div modified>
virtual bool HasIBPTrickSpeed(void);
virtual void TrickSpeed(int Speed);
virtual void Clear(void);
virtual void Play(void);
virtual void Freeze(void);
virtual void Mute(void);
virtual void StillPicture(const uchar *Data, int Length);
virtual bool Poll(cPoller &amp;Poller, int TimeoutMs = 0);
virtual int PlayVideo(const uchar *Data, int Length);
</pre></td></tr></table><p>

In addition, the following functions may be implemented to provide further
functionality:

<p><table><tr><td class="code"><pre>
virtual bool GrabImage(const char *FileName, bool Jpeg = true, int Quality = -1, int SizeX = -1, int SizeY = -1);
virtual void SetVideoFormat(bool VideoFormat16_9);
virtual void SetVolumeDevice(int Volume);
</pre></td></tr></table><p>

<p>
<b>Section Filtering</b>
<p>
If your device provides section filtering capabilities it can implement
the functions

<p><table><tr><td class="code"><pre>
virtual int OpenFilter(u_short Pid, u_char Tid, u_char Mask);
virtual void CloseFilter(int Handle);
</pre></td></tr></table><p>

which must open and close a file handle that delivers section data for the given
filter parameters.
<p>
In order to actually start section handling, the
device also needs to call the function

<p><table><tr><td class="code"><pre>
StartSectionHandler();
</pre></td></tr></table><p>

from its constructor.
<p>
See <a href="#Filters">Filters</a> on how to set up actual filters that can
handle section data.

<p>
<b>On Screen Display</b>
<p>
If your device provides On Screen Display (OSD) capabilities (which every device
that is supposed to be used as a primary device should do), it shall implement
an "OSD provider" class, derived from <tt>cOsdProvider</tt>, which, when its <tt>CreateOsd()</tt>
function is called, returns an object derived from <tt>cOsd</tt>, which can be used to
access the device's OSD:

<p><table><tr><td class="code"><pre>
class cMyOsdProvider : public cOsdProvider {
public:
  cMyOsdProvider(void);
  virtual cOsd *CreateOsd(int Left, int Top);
  };
</pre></td></tr></table><p>

In its <tt>MakePrimaryDevice()</tt> function the device shall create an object
of this class, as in

<p><table><tr><td class="code"><pre>
void cMyDevice::MakePrimaryDevice(bool On)
{
  new cMyOsdProvider;
}
</pre></td></tr></table><p>

The OSD provider object is allocated on the heap and shall not be deleted
(it will be deleted automatically in case a different device sets up an OSD
provider, or when the program ends).

Note that an OSD implementation need not be physically linked to the device
in any way. All it needs to make sure is that the OSD will be visible to the
user - whether this goes through OSD facilities of the physical device (like
a "full featured" DVB card) or through a graphics adapter that overlays its
output with the video signal, doesn't matter.

<div class="modified">
In order to be able to determine the proper size of the OSD, the device
should implement the function

<p><table><tr><td class="code"><pre>
virtual void GetOsdSize(int &amp;Width, int &amp;Height, double &amp;Aspect);
</pre></td></tr></table><p>

By default, an OSD size of 720x480 with an aspect ratio of 1.0 is assumed.
</div modified>

<p>
<b>Initializing new devices</b>
<p>
A derived <tt>cDevice</tt> class shall implement a static function
in which it determines whether the necessary hardware to run this sort of
device is actually present in this machine (or whatever other prerequisites
might be important), and then creates as many device objects as necessary.
See <tt>VDR/dvbdevice.c</tt> for the implementation of the <tt>cDvbDevice</tt>
initialize function.
<p>
A plugin that adds devices to a VDR instance shall call this
function from its <a href="#Getting started"><tt>Initialize()</tt></a> function
to make sure other plugins that may need to have access to all available devices
will see them in their <a href="#Getting started"><tt>Start()</tt></a> function.
<p>
Nothing needs to be done to shut down the devices. VDR will automatically
shut down (delete) all devices when the program terminates. It is therefore
important that the devices are created on the heap, using the <tt>new</tt>
operator!

<div class="modified">
<p>
<b>Device hooks</b>
<p>
VDR has builtin facilities that select which device is able to provide a given
transponder. However, there may be situations where the setup is so special
that it requires considerations that exceed the scope of the core VDR code.
This is where <i>device hooks</i> can be used. 

<p><table><tr><td class="code"><pre>
class cMyDeviceHook : public cDeviceHook {
public:
  cMyDeviceHook(void);
  virtual bool DeviceProvidesTransponder(const cDevice *Device, const cChannel *Channel) const;
  };
</pre></td></tr></table><p>

In its <tt>DeviceProvidesTransponder()</tt> function the device hook can take
whatever actions are necessary to determine whether the given Device can
provide the given Channel's transponder, as in

<p><table><tr><td class="code"><pre>
void cMyDeviceHook::DeviceProvidesTransponder(const cDevice *Device, const cChannel *Channel) const
{
  if (<i>condition where Device can't provide Channel</i>)
     return false;
  return true;
}
</pre></td></tr></table><p>

A plugin that creates a derived cDeviceHook shall do so in its <tt>Initialize()</tt>
function, as in

<p><table><tr><td class="code"><pre>
new cMyDeviceHook;
</pre></td></tr></table><p>

and shall not delete this object. It will be automatically deleted when the program ends.
</div modified>

<hr><h2><a name="Audio">Audio</a></h2>

<div class="blurb">"The stereo effect may only be experienced if stereo equipment is used!"</div><p>

There are many different ways to replay additional audio tracks, like Dolby Digital.
So VDR offers a plugin interface that allows for the implementation of any kind of
audio replay facility.
<p>
To implement a new audio output facility, simply derive a class from <tt>cAudio</tt>,
as in

<p><table><tr><td class="code"><pre>
#include &lt;vdr/audio.h&gt;
#include &lt;vdr/thread.h&gt;

class cMyAudio : public cAudio, private cThread {
private:
  virtual void Action(void);
public:
  cMyAudio(void);
  virtual void Play(const uchar *Data, int Length, uchar Id);
  virtual void Mute(bool On);
  virtual void Clear(void);
  };
</pre></td></tr></table><p>

You should create your derived audio object in the
<a href="#Getting started"><tt>Start()</tt></a> function of your plugin.
Note that the object has to be created on the heap (using <tt>new</tt>),
and you shall not delete it at any point (it will be deleted automatically
when the program ends).
<p>
The <tt>Play()</tt> function will be offered complete audio PES packets
and has to accept each packet immediately. It must return as soon as possible,
in order to not delay the overall replay process. Therefore you may want to
also derive your class from <tt>cThread</tt> and run the actual audio processing
as a separate thread. Note that the offered data is only valid within the call
to <tt>Play()</tt>, so if you can't process the entire block immediately, you
will need to copy it for later processing in your thread.
<p>
The <tt>Mute()</tt> and <tt>Clear()</tt> functions will be called whenever the audio shall
be muted, or any buffered data shall be cleared, respectively.

<hr><h2><a name="Remote Control">Remote Control</a></h2>

<div class="blurb">The joy of zapping!</div><p>

There are several ways to control the operation of VDR. The builtin methods
are using the PC keyboard, a homebuilt RCU unit or the LIRC interface.
Of course there may be many more ways you might think of to implement a
remote control, so a plugin can use the <tt>cRemote</tt> class to do that.
<p>
The simplest method for a plugin to issue commands to VDR is to call the
static function <tt>cRemote::Put(eKeys Key)</tt>, as in

<p><table><tr><td class="code"><pre>
cRemote::Put(kUp);
</pre></td></tr></table><p>

In this case the plugin must do the mapping of whatever incoming signal or code
it processes to the <tt>eKeys</tt> values itself. This makes sense if the incoming
codes are well known and won't ever change.
<p>
In cases where the incoming codes are not known, or not all available keys may
be supported by the actual remote control in use, you may want to derive your
own remote control class from <tt>cRemote</tt>, as in

<p><table><tr><td class="code"><pre>
#include &lt;vdr/remote.h&gt;
#include &lt;vdr/thread.h&gt;

class cMyRemote : public cRemote, private cThread {
private:
  virtual void Action(void);
public:
  cMyRemote(const char *Name);
  virtual bool Initialize(void);
  };
</pre></td></tr></table><p>

Note that deriving from <tt>cThread</tt> is not required for a remote control
class to work, but typically you may want to have a separate thread running that
collects the input and delivers it to the <tt>cRemote</tt> base class.
<p>
You should create your derived remote control object in the
<a href="#Getting started"><tt>Start()</tt></a> function of your plugin.
Note that the object has to be created on the heap (using <tt>new</tt>),
and you shall not delete it at any point (it will be deleted automatically
when the program ends).
<p>
The constructor of your remote control class should look like this

<p><table><tr><td class="code"><pre>
cMyRemote::cMyRemote(const char *Name)
:cRemote(Name)
{
  Start();
}
</pre></td></tr></table><p>

The <tt>Name</tt> is important in order for the <tt>cRemote</tt> base class
to be able to distinguish the codes for the various remote controls.
When creating your <tt>cMyRemote</tt> object you should use the value returned
by the <tt>Name()</tt> member function of the plugin class, which returns the
plugin's name. Calling <tt>Start()</tt> will start the thread that collects
the incoming data (by calling your <tt>Action()</tt> function).
In case you need to do any other setup steps, like opening a file or initializing
member variables, you should do so before calling <tt>Start()</tt>.
<p>
If your remote control for some reason can't work (maybe because it was unable to
open some file handle it requires) it can implement the virtual function

<p><table><tr><td class="code"><pre>
virtual bool Ready(void);
</pre></td></tr></table><p>

and have it return <i>false</i>. In that case VDR will not try to learn keys from
that remote control.
VDR will handle everything necessary to learn the key mappings of your remote
control. In order to do so, it will first call the virtual function <tt>Initialize()</tt>,
in which you should take all necessary steps to make sure your remote control
can be accessed. This may, for instance, include trying various communications
protocols. <tt>Initialize()</tt>, if implemented, shall only return after it has
made sure data can be received from the remote control. Before calling this
function, VDR will prompt the user on the OSD to press any key on the remote control.
As soon as your derived <tt>cRemote</tt> class has detected useful incoming data,
<tt>Initialize()</tt> should return <i>true</i>. If any fatal error occurs, <i>false</i>
should be returned.
<p>
If your remote control class needs some setup data that shall be
readily available next time VDR starts (without having to go through the initialization
procedure again) it can use the <tt>cRemote</tt> member functions

<p><table><tr><td class="code"><pre>
void PutSetup(const char *Setup);
const char *GetSetup(void);
</pre></td></tr></table><p>

to store and retrieve a character string containing whatever data is needed.
Note that the <tt>Initialize()</tt> function will only be called if there are
no key mappings known for this remote control. Once the key mappings have been
learned, <tt>Initialize()</tt> will never be called again.
<p>
The <tt>cRemote</tt> class assumes that any incoming remote control code can be
expressed as a character string. So whatever data your remote control provides
needs to be given to the base class by calling

<p><table><tr><td class="code"><pre>
Put(const char *Code, bool Repeat = false, bool Release = false);
</pre></td></tr></table><p>

where <tt>Code</tt> is the string representation of the remote control's
incoming data. <tt>Repeat</tt> and <tt>Release</tt> are boolean flags that
indicate whether this is a repeated keypress, or the key has been released.
Since a common case for remote control data is to be given as a numerical
value, there is another <tt>Put()</tt> function available for your convenience,
which takes a 64 bit unsigned integer value instead of a character string:

<p><table><tr><td class="code"><pre>
Put(uint64 Code, bool Repeat = false, bool Release = false);
</pre></td></tr></table><p>

The other parameters have the same meaning as in the first version of this function.

<hr><h2><a name="Conditional Access">Conditional Access</a></h2>

<div class="blurb">Members only!</div><p>

Pay TV providers usually encrypt their broadcasts, so that only viewers who
have the proper smart card can watch them. Such a smart card needs to be inserted
into a CAM (Conditional Access Module), which in turn goes into a CI (Common
Interface) slot.
<p>
VDR's mechanisms for supporting Conditional Access are mainly the two classes
<tt>cCiAdapter</tt> and <tt>cCamSlot</tt>. A <tt>cCiAdapter</tt> handles exactly
one CI, and can provide several CAM slots, represented by the appropriate
number of <tt>cCamSlot</tt> objects.
<p>
In order to decrypt a particular channel, a <tt>cCiAdapter</tt> with a <tt>cCamSlot</tt>
that contains the necessary CAM will be assigned to a <tt>cDevice</tt>, and exactly
one of its CAM slots will be activated. Whether or not a <tt>cCiAdapter</tt> can
be assigned to a particular device depends on the hardware implementation.
Some devices (like the Siemens/Technotrend DVB cards) are hardwired with their
CI adapters, so the <tt>cCiAdapter</tt> for these can only be used with one device.
Other hardware implementations may allow CI adapters and devices to be connected
through some sort of matrix switch. When trying to decrypt an encrypted channel,
VDR will automatically select a useful combination of device and CAM slot.
<p>
If a plugin implements a derived <tt>cCiAdapter</tt>, it has to implement
several low level functions that handle the actual data transfer (see <tt>dvbci.c</tt>
for example). The decision whether the adapter can actually be assigned to different
devices is made in the function

<p><table><tr><td class="code"><pre>
virtual bool Assign(cDevice *Device, bool Query = false);
</pre></td></tr></table><p>

See the description of this function in <tt>ci.h</tt> for details.

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